Effects of capillary condensation on adsorption and thermal desorption dynamics of water in zeolite 13X and layered beds

被引:78
作者
Ahn, H
Lee, CH
机构
[1] Yonsei Univ, Dept Chem Engn, Seoul 120749, South Korea
[2] UCL, Dept Chem Engn, London WC1E TJE, England
关键词
adsorption; thermal desorption; zeolite 13X pellet; layered bed; capillary condensation;
D O I
10.1016/j.ces.2004.04.011
中图分类号
TQ [化学工业];
学科分类号
0817 ;
摘要
The effects of capillary condensation on the adsorption and thermal desorption dynamics of water in zeolite 13X beds and layered beds with zeolite 13X/silica gel or zeolite 13X/alumina were experimentally and theoretically studied. As the equilibrium isotherm of water on zeolite 13X pellet was found to be most favorable at a low relative humidity and indicated capillary condensation at a high relative humidity, it was possible to construct a non-isothermal model that included capillary condensation and that could successfully predict plateaus of temperature and concentration profiles in thermal regeneration. In adsorption breakthrough, by using a feed in the capillary condensation range of the isotherm on zeolite 13X, the breakthrough curve showed a shock wave in the low concentration and a proportionate pattern in the high concentration. In thermal desorption breakthrough, the desorbed water at the upper part of the bed was re-adsorbed at the lower part of the bed, and that re-adsorption mainly occurred in the capillary condensation range of the isotherm. Therefore, even though an adsorption was performed at a feed in the favorable range of the isotherm, and could be well predicted with type I isotherm, its desorption dynamics should be predicted by using the isotherm model with its consideration of capillary condensation. The layered bed with silica gel or alumina did not have any advantage over the zeolite 13X bed with respect to adsorption breakthrough performance. However, compared to the zeolite 13X bed, the complete regeneration time in the layered bed was drastically shortened due to a greater variation of the amount of equilibrium adsorption of water under temperature on both silica gel and alumina. In addition, since an increase in temperature led to a greater decrease of the amount of equilibrium adsorption of water on silica gel than on alumina, a layered bed with silica gel obviously could be regenerated more efficiently than a layered bed with alumina. (C) 2004 Elsevier Ltd. All rights reserved.
引用
收藏
页码:2727 / 2743
页数:17
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